DE3436936C1 - Hollow charge - Google Patents

Abstract

In the case of a hollow charge, the sleeve (6) is provided with openings (10) which are arranged symmetrically around the main charge (2). <IMAGE>

Description

The invention relates to a shaped charge according to the preamble of claim 1.

The shell of a shaped charge holds the individual shaped charge parts arranged therein together and protects them against external influences. The shell of a conventional shaped charge consists of a whole The circumference of the shaped charge between the lining base and the cover plate enclosing the jacket. It has has shown that slight asymmetries of the shaped charge with respect to its longitudinal axis noticeably impair its performance.

It was found that with a one-sided gap between the shell and the main charge of only a tenth of a millimeter already shows a noticeable reduction in performance and an increase in the spread of the shaped charge spike occurs. This is due to the fact that in the area of such a gap Explosive plumes occur, which a premature initiation of the shaped charge in the gap area and thus a cause asymmetrical detonation front.

The formation of such a one-sided gap between the shell and main charge is difficult to prevent in particular with temperature variations between minus 40 ° and plus 51 ⁰ C, which must be exposable by the relevant provisions shaped charges due to the different coefficients of thermal expansion of the casing material on the one hand and the main charge on the other.

In addition, the envelope acts as a dam, i.e. H. reflections of the detonation wave appear on it. Have one-sided gaps between the shell and the main charge therefore also an asymmetrical damming effect as a consequence. An asymmetry in the damming effect also results from almost unavoidable un

symmetrical fluctuations in the thickness of the shell.

A shell-less projectile ammunition is already known in which the propellant burns without leaving any residue and in the absence of a bullet case, no separate device for ejecting the case is required (see, for example DE-AS17 96 238).

In the older German patent application P 34 24 867.6 already a shaped charge according to the The preamble of claim 1 is proposed. The case

ίο consists of a fiber composite material whose Fibers run in the longitudinal direction of the shaped charge so that unreinforced areas thus result in weaknesses at which the envelope tears in the event of detonation and thus the plumes emerge can. So that the shell has the smallest possible wall thickness, the fiber composite material is with further Provided fibers which are oriented perpendicular to the longitudinal fibers. So that Longitudinal tearing is not impaired as far as possible, these additional fibers are Short fibers. However, their installation in the plastic matrix of the fiber composite material is relatively expensive. In addition, fluctuations in the distribution of the fibers are unavoidable.

The invention, as it is characterized in the claims, is based on the object of a relative Specify a sleeve that is easy to manufacture, which largely reduces the performance of the shaped charge prevented.

According to the invention, instead of a conventional cover with a closed outer periphery, a Support structure used, which is provided with openings symmetrically arranged to the longitudinal axis of the shaped charge is.

To form these openings, webs are preferably provided, which extend from a ring on the base the liner to a ring on the cover plate which also encompass the transfer charge can. Instead of these webs, however, the openings can also be produced by other support structures are, for example, a network-shaped support structure.

Due to the large, uninsulated main charge surface, the hollow charge according to the invention has a given consistently high performance. A one-sided gap formation and thus a premature initiation of the Main loading or uneven damming effects are prevented. In addition, the openings Case weight reduced.

Below is one embodiment of the invention Shaped charge explained in more detail with reference to the drawings. It shows in each case schematically

F i g. 1 is a longitudinal section along the line I-I of FIG F i g. 2 and

F i g. FIG. 2 shows a cross section along the line H-II of FIG F i g. 1 through the shaped charge.

The shaped charge consists of a lining 1, a main charge 2, a transfer charge 3, a Inert body 4 for detonation wave guidance between

Main charge 2 and transfer charge 3 and a cover plate 5. These parts are placed in a cover 6 and braced against each other, e.g. B. by threaded rings, not shown, on which the base of the Liner 1 is supported at one end and the cover plate 5 at the other end of the shaped charge.

The shell 6 consists of a ring section 7 in the area of the base of the lining 1, a ring section 8 in the area of the cover plate 5 and the

support plate 4 and four of the ring sections 7 and 8 interconnecting, extending in the longitudinal direction of the shaped charge webs 9, which at an angle of 90 ° with the same distance from one another, that is, arranged symmetrically around the circumference of the main charge 2 are, so that between the webs 9 correspondingly symmetrical, axially parallel openings 10 are formed.

Furthermore, the main charge 2 is provided with a protective coating 11, at least in the area of the openings 10 to protect them from external influences. The protective coating 11 can be a Trade explosives-compatible dipping paint or a coat of paint. The protective coating 11 is preferred applied to the case before loading the main charge 2.

Thanks to the openings 10, the contact surface between the shell 6 and the main charge 2 is a priori reduced and thus also the probability of the occurrence of a gap between the shell 6 or the Web 9 and the main charge 2. In addition, when a gap occurs between the main charge 2 and the webs 9, the explosives can escape laterally through the openings 10 to the outside, so that their effect of causing early initiation of the main charge 2 is also decisively reduced as a result will. Due to the symmetrical arrangement of the openings 10 and the webs 9 around the circumference of the Main charge 2 also ensures that there is no asymmetry of the detonation front through the openings 10 or the webs 9 is caused.

As in Fig. 1 shown above with dashed lines, the webs 9 are sub-caliber before the introduction of the main charge 2 educated. This means that the casing 6 or its webs 9 are pretensioned in the area of the main charge 2 on the main charge 2 resiliently. In this way it is ensured that especially with larger Temperature fluctuations cause a gap to form between the shell 6 or the webs 9 and the main charge 2 is prevented.

1 sheet of drawings

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Claims (4)

Patent claims: 1. Hollow charge with a lining, a main charge, a transfer charge, an inert body for detonation wave guidance between main charge and transfer charge and a cover plate at the end facing away from the lining in a shell, which weakens the swath to exit which run in the longitudinal direction of the shell, characterized in that the weakenings of the shell (6) through openings (10) are formed, which are arranged symmetrically around the main charge (2). 2. Hollow charge according to claim 1, characterized in that to form the openings (10) the Cover (6) a ring section (7) in the area of the base of the lining (1) and a ring section (8) in the area of the cover plate (5) and the transfer charge (3) and the two ring sections (7 and 8) are connected to one another by webs (9). 3. Hollow charge according to claim 1 or 2, characterized in that the main charge (2) at least is provided with a protective coating (11) in the area of the openings (10). 4. Hollow charge according to one of the preceding claims, characterized in that the casing (6) is designed to be sub-caliber in the region of the openings (10).